NESPOLO, RF; BACIGALUPE, LD; BOZINOVIC, F: On the heritability of body temperature in endotherms: a study in leaf eared mice
Natural selection acts over additive genetic variation. Consequently, its measurement is a requisite for any statement about the evolutionary significance of a trait. The evolution of endothermy is a long-standing issue in which body temperature plays a central role. We determined heritability in a small mammal species, the leaf-eared mouse (Phyllotis darwini). In this wild species we performed a full sib / half sib analysis to determine narrow-sense heritability (h2) of body rectal temperature (Tb). Offspring were isolated at weaning, and night and day Tb were measured in adults. We used the animal model approach to estimate components of variance and h2. Statistically significant values of h2 were 0.58 (SE=0.24) and 0.72 (SE=0.25) for day and night Tb, respectively. In addition, the genetic correlation between both measures was high, rA = 0.90 (SE=0.18), and the contribution of maternal effects was not significant (X2 = 0.6, P > 0.05). We conclude that Tb in this species could potentially respond evolutionarily to selection. These results suggest that the direct selection on higher Tb cannot be disregarded so far as a potential target for natural selection in the origin and evolution of visceral endothermy.